ir3800 International Rectifier Corp., ir3800 Datasheet - Page 15

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ir3800

Manufacturer Part Number

ir3800

Description

Wide-input Voltage, Synchronous Buck Regulator

Manufacturer

International Rectifier Corp.

Datasheet

1.IR3800.pdf (21 pages)

Current page: 15 of 21
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Based on the frequency of the zero generated by

the output capacitor and its ESR versus

crossover frequency, the compensation type can

be different. The table below shows the

compensation types and location of crossover

frequency.

11/04/08

Table1- The compensation type and location

The details of these compensation types are

discussed in application note AN-1043 which can

be downloaded from IR’s website at www.irf.com.

For this design we have:

V

V

V

V

g

L

C

F

The value of the capacitance used in the

compensator design must be the small signal

value. For instance, the small signal capacitance

of the 22uF capacitor used in this design is 12uF

at 1.8 VDC bias and 600 kHz frequency. It is this

value that must be used for all computations

related to the compensation. The small signal

value may be obtained from the manufacturer’s

datasheets, design tools or SPICE models.

Alternatively, they may also be inferred from

measuring the power stage transfer function of

the converter and measuring the double pole

frequency FLC and using equation (11) to

compute the small signal Co.

These result to:

F

F

F

Compensator

type

m

o

in

o

osc

ref

s

LC

ESR

s/2

o

Type III(PID)

Type III(PID)

=0.6uH

=600kHz

=1.8V

=1000umoh

=6x22uF, ESR=0.5mOhm

=12V

Method A

Method B

=0.6V

Typ II(PI)

=24.21kHz

=300kHz

=1.25V

=4.4MHz

of F

ESR

F

F

F

LC

LC

LC

F

versus F

<F

<F

<F

ESR

ESR

o

o

<F

<F

vs. F

<F

ESR

s/2

o

<F

o

<F

<F

o

ESR

s/2

s/2

Output

capacitor

Electrolytic

, Tantalum

Tantalum,

Ceramic

ceramic

Select crossover frequency:

Fo=80kHz

Since: FLC<Fo<Fs/2<FESR , type III method B is

selected to place the poles and zeros.

The following design rules will give a crossover

frequency approximately one-tenth of the

switching frequency. The higher the band width,

the potentially faster the load transient response.

The DC gain will be large enough to provide high

DC-regulation accuracy (typically -5dB to -12dB).

The phase margin should be greater than 45

overall stability.

Desired Phase Boost:

Select

Select

Select

Calculate

C

C

Calculate

Select

F

F

F

F

R

R

R

R

F

Z

Z

P

P

3

4

3

10

8

9

o

2

2

2

2

=

=

=

=

=

<

=

=

=

=

=

V

2

2

2

2

14

F

F

F

453

2

π

o

π

π

π

o

ESR

o

V

:

:

:

:

π

1 .

-

*

*

C

R

R

ref

*

*

*

*

V

F

*

7 .

7

kHz

10

F

3

F

F

C

Z1

1

ref

and

C

C

1

R

1

1

1

o

Z1

P

=

1

1

1

=

7

kHz

3

10

7

=

4

=

*

C

*

+

+

*

180pF

-

-

1

*

*

*

and

. 1

L

7

Sin

,

R

Sin

0

2.70K

F

Sin

Sin

R

R

R

F

o

F

*

5 .

Z

96

8

P

*

3

2

o

V

3

8

;

2

Θ

Θ

Θ

Θ

*

C

in

;

and

R

≤

C

;

-

K

;

C

C

F

R

o

9

3

R

Ω

(

Ω

Z

4

1/5

*

3

10

10

=

:

2

V

=

=

R

;

30

OSC

1.78nF,

=

R

and

41

9

~

. 1

8

:

.

20

Θ

1/10

IR3800MPbF

.

,

=

95

77

max

R

60

K

K

F

3

pF

Ω

=

P3

.

Ω

)

72

=

12

,

*

Select

,

,

=

70

Select

F

.

K

check

57

Select

0.5

s

Ω

o

KΩ

,

*

Select

:

F

PD-60352

:

,

R

s

C

R

:

check

10

4

C

9

=

3

≥

=

:

1

=

30

g

R

8 .

1

39

m

8

R

1 .

nF

=

3

pF

K

60

≥

Ω

o

g

4 .

for

2

15

m

K

Ω

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